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Plant Biotechnology Collection

Plant biotechnology is revolutionizing the way we understand and manipulate plants for various purposes

Background imagePlant Biotechnology Collection: Roots of Thale cress plant, Arabidopsis thaliana

Roots of Thale cress plant, Arabidopsis thaliana
Root genetics research. Roots of the Thale cress plant, Arabidopsis thaliana, growing in a culture medium. The roots have fine root hairs growing horizontally out of them

Background imagePlant Biotechnology Collection: Cultured cress plant

Cultured cress plant
Plant genetics research. Thale cress plants, Arabidopsis thaliana, growing in a culture medium

Background imagePlant Biotechnology Collection: Genetically-modified pollen grains

Genetically-modified pollen grains
Genetically-modified pollen. Conceptual composite image of a coloured scanning electron micrograph (SEM) of maize pollen grains (Zea mays) labelled with biohazard symbols

Background imagePlant Biotechnology Collection: Coloured TEM of cress chloroplast growing plastic

Coloured TEM of cress chloroplast growing plastic

Background imagePlant Biotechnology Collection: Culturing genetically engineered plant seedlings

Culturing genetically engineered plant seedlings

Background imagePlant Biotechnology Collection: Tissue culture of tobacco plant

Tissue culture of tobacco plant
Biotechnology: tissue culture of the tobacco plant Nicotiana tabacum growing in a petri dish on nutrient agar

Background imagePlant Biotechnology Collection: AIDS plant vaccine: researcher infects cowpea leaf

AIDS plant vaccine: researcher infects cowpea leaf
MODEL RELEASED. Plant vaccine for AIDS. Researcher pipettes a viral solution to infect the leaf of a cowpea plant Vigna unguiculata

Background imagePlant Biotechnology Collection: Cultured cress seedlings

Cultured cress seedlings
Plant genetics research. Silhouette of Thale cress plants, Arabidopsis thaliana, growing in a culture medium

Background imagePlant Biotechnology Collection: AIDS plant vaccine: pulping infected cowpea leaves

AIDS plant vaccine: pulping infected cowpea leaves
Plant vaccine for AIDS. Mortar and pestle used to pulp virus-infected leaves of a cowpea plant Vigna unguiculata. By grinding the leaves, viruses are extracted to produce a plant vaccine for AIDS

Background imagePlant Biotechnology Collection: GM maize

GM maize
Genetically-modified maize. Petri dish containing sprouting genetically-modified (GM) maize kernels (Zea mays)

Background imagePlant Biotechnology Collection: Plant biotechnology

Plant biotechnology, conceptual image. Sunflower seedling (Helianthus sp.) in a test tube

Background imagePlant Biotechnology Collection: Genetically modified plant

Genetically modified plant. Conceptual image representing a genetically modified (GM) seedling growing in the cupped hands of a technician

Background imagePlant Biotechnology Collection: Biotechnology: tissue culture of tobacco plant

Biotechnology: tissue culture of tobacco plant
Biotechnology: tissue culture of the tobacco plant Nicotiana tabacum growing in a petri dish on nutrient agar

Background imagePlant Biotechnology Collection: GM wheat

GM wheat
MODEL RELEASED. GM wheat. Scientist pricking out genetically modified (GM) wheat seedlings (Triticum sp.)

Background imagePlant Biotechnology Collection: Plant biotechnology, conceptual image

Plant biotechnology, conceptual image. Leaf growing on top of a technological device, representing the fusion of human technology with nature


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Plant biotechnology is revolutionizing the way we understand and manipulate plants for various purposes. From studying the roots of Thale cress plant, Arabidopsis thaliana, to culturing genetically engineered plant seedlings, scientists are unlocking the potential of these organisms like never before. One fascinating aspect of the development of genetically-modified rape pollen. By altering its genetic makeup, researchers aim to enhance its properties and improve crop yields. These genetically-modified pollen grains hold great promise in ensuring food security and sustainability. Intriguingly, a coloured TEM image showcases cress chloroplast growing on plastic. This innovative technique allows us to observe how plants adapt and thrive in different environments through their intricate cellular structures. Tissue culture plays a crucial role in advancing plant biotechnology. The cultivation of tobacco plants under controlled conditions enables scientists to study their growth patterns and develop new strategies for disease resistance or improved traits. Biotechnology extends beyond agriculture as well. An AIDS plant vaccine researcher infects cowpea leaf with a purpose - exploring ways to combat this deadly virus using innovative techniques derived from nature itself. With each breakthrough in plant biotechnology, we inch closer towards sustainable solutions for global challenges such as hunger, climate change, and disease prevention. As our understanding deepens and technology advances further, the possibilities become endless – offering hope for a brighter future where plants play an even more significant role in shaping our world.

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